Portable computing device for accessing shareable portion(s) of health data

ABSTRACT

A portable computing device for accessing shareable portion(s) of health data includes a wireless interface, an access code entry device configured to receive entry of an access code, and an entry device configured to receive user input. The portable computing device also includes a processor configured to execute instructions stored at a memory to initiate transmission of data indicating the access code to a server and, conditioned on the access code matching a particular access code that is set by a device and that enables access to health information, receive at least a portion of the health information that is designated as shareable by a computing device. The portable computing device also includes a display device configured to display information based on the received portion of the health data.

FIELD OF THE DISCLOSURE

This disclosure relates to a portable computing device for accessing shareable portion(s) of health data.

BACKGROUND

It will be appreciated that time is of the essence in the delivery of emergency services. As is well known, with a severed artery an individual can die within eight minutes. Moreover, there is a so-called “golden hour” in which if appropriate medical procedures are not administered, the likelihood of survival is substantially diminished.

In the past, a limited amount of medical history has been carried on bracelets worn by a stricken individual which at least instructs the EMTs or other emergency care professionals as to any allergic reactions that the individual may have. It can also alert to life threatening diseases such as AIDS so as to protect emergency personnel.

However, complete patient records have so far been unavailable to the emergency medical practitioner at the scene or at the point at which emergency help is administered. As a result, emergency medical personnel are at a great disadvantage when treating an individual in extremis.

There is therefore an urgent need to provide patient histories on the spot to assist medical providers in order to save lives or better render emergency assistance.

Such assistance would desirably be with the patient's consent, although ability to rapidly deliver patient records might take precedence over obtaining consent. Consent may however, play an important role.

As is usual, much of the patient's medical history is kept as a private record by his or her physician, by his or her hospital, or by his or her insurance company. Privacy issues surrounding the release of this information have in general resulted in large and unacceptable delays in getting this information to the primary healthcare provider. The results have been that people in emergency situations are denied the benefits of providing up-to-date information when trying to obtain treatment. Thus not only is patient history unavailable, such information when it becomes available, is available much later in the process.

Thus, delays in disseminating patient information are the result of privacy concerns, and for this reason patient information is not routinely transmitted anywhere outside a hospital environment, much less over the Internet. Moreover, present systems deny the patient the ability to consent to the transfer of the records to the appropriate healthcare provider under any circumstances. For this reason the individual has no choice in the matter and if unconscious is unable to give such consent in cases of emergency.

SUMMARY

A portable computing device for accessing shareable portion(s) of health data is described herein. In a particular aspect, the portable computing device includes a wireless interface, an access code entry device configured to receive entry of an access code, and an entry device configured to receive user input. The portable computing device also includes a processor configured to execute instructions stored at a memory to initiate transmission of data indicating the access code to a server and, conditioned on the access code matching a particular access code that is set by a device and that enables access to health information, receive at least a portion of the health information that is designated as shareable by a computing device. The portable computing device also includes a display device configured to display information based on the received portion of the health data. Additional details are described herein.

In the subject system, a global database is provided at a server linked via the Internet or other means to the site at which emergency assistance is rendered. The global database has access to the patient's medical history, and optionally insurance information, which is warehoused at one location. This information is instantly transmitted over the Internet to either a computer in an emergency room, to a rescue vehicle, or to a personal digital assistant carried by emergency personnel. The result is instant access to patient histories whenever it is needed.

If privacy is an issue, access to the information over the Internet is authorized, in one embodiment by a user ID or password, which can be a barcode and an imprinted number on a bracelet or a card within one's wallet. Alternatively, manual entry of the patient's access code precludes the necessity of access code readers.

In a preferred embodiment, each emergency health care provider is provided with a scanner which accesses the password or ID and transmits this password or ID to the global database server. The global database server then downloads or fetches the information over the Internet to the health care provider at the scene so as to permit the health care provider to make intelligent decisions about the treatment of the stricken individual.

In one embodiment, medical information can be entered at the scene using a data form provided for the purpose that can be e-mailed to the hospital before arrival, and is transmitted back to the global database server for storage.

For those situations in which privacy is an issue, in one embodiment of the subject disclosure, it is only by virtue of the consent of each individual that his or her information is provided to the emergency health care provider. Moreover, the individual may, at his election, wish to divulge only a certain portion of his medical history, which can be encoded and honored at the global database server.

While it may be unwise for a particular individual to limit the information seen by the emergency medical technician or physician, if such restricted access will cause the individual to give his or her consent, then the net benefit is still positive. Alternatively, the operator of the global database server may upon receipt of a request for restricting information contact the individual and discuss what information would be more appropriate and what information might be restricted. The simplest method is the organization of information by patient visit date (PDFs). Thus, the patient can indicate what date he or she does not want posted.

It will be appreciated that as part of the subject disclosure, it is possible for the global database server to be in the form of a number of networked database servers, with each server in each location acting as a regional server for that specific area. This prevents backlogs and provides realtime access to the information.

What is provided is on-the-spot access to patient medical information over a globally networked system. This allows for easier access to medical and insurance information, which in turn allows time to be saved and complete information to be received. The subject system saves time in emergency situations especially in emergency rooms or at the rescue scene and provides complete information for health care providers, particularly if the patient is unconscious. Because the information is accessible over the Internet, patient information can be accessed from any global location quickly, particularly because of the use of servers in various global locations. Moreover, any network medium including a computer, a handheld device such as personal digital assistant or any type of display linked to the network may be utilized. If the device to which the information is downloaded includes a wireless transmission such as a cell phone, then EMT practitioners or other medical professionals can have the additional benefit of e-mailing information or prescriptions to colleagues or pharmacies from the same screen.

As can be seen, what is provided is a centralized healthcare network connected to the far reaches of the world to assist emergency care by providing realtime access to patient histories to assist emergency care providers.

In summary, an Internet based method for assisting in the rapid delivery of medical information direct to the site at which emergency assistance is being performed uses a global database for warehousing patient history information, which is fetched over the Internet on demand. In one embodiment, medical providers use an access code carried by the injured party and without which access is denied. The access code may be carried as a barcode and as an imprinted number on a bracelet or on a card carried by the individual. Patient information is transmitted over a network, either wireline or wireless, the Internet or wide area network, to a computer or personal digital assistant available to emergency personnel. In one embodiment, patient history information access is determined through the use of an access code reader, by entering the patient access code manually or by entering the patient's name as a last resort. Additionally insurance information can be made available to shorten emergency room admission procedures.

Lastly, the patient's card or bracelet can allow for patient history to be downloaded and saved. Thus in emergency situations, the information can be uploaded from the card or bracelet to the healthcare providers' viewing screens.

BRIEF DESCRIPTION OF THE DRAWINGS

These and other features of the subject disclosure will be better understood in connection with the Detailed Description in conjunction with the Drawing of which:

FIG. 1 is a diagrammatic representation of the subject system in which a healthcare professional attending an injured party is provided with the patient's record through the utilization of a portable computing device, the Internet, and a global database coupled to an Internet server;

FIG. 2 is diagrammatic illustration of an access code which is carried on a bracelet;

FIG. 3 is a diagrammatic representation of an access code which is carried on a card carried by an individual;

FIG. 4 is a block diagram of a global server coupled to regional servers to permit realtime data processing to provide the patient's record at the injured party, such as at a portable computing device;

FIG. 5 is a diagrammatic illustration of a data entry structure including an initial web page in which the insurance agencies and healthcare providers can provide input to the global database, and in which the patient and/or those surrounding him can view the medical and insurance information from the global database via a portable computing device; and,

FIG. 6 is a flow chart of one embodiment of the subject disclosure.

DETAILED DESCRIPTION

It will be noted while the illustrated embodiment is described in terms of access codes, in the general case the subject disclosure involves the realtime Internet transfer of patient histories.

With this understanding and referring now to FIG. 1, a system 10 includes an injured party 12, an access code providing device 14 which is read by an access code entry device 16, which in one embodiment can scan the access code from, for instance, a barcode carried by a bracelet or a card carried in the individual's wallet. Access code entry can also be done manually through a keypad or by whatever means is required in order to ascertain the access code associated with the injured party.

The access code is entered into a computer 18, which in the illustrated embodiment is a personal digital assistant having a screen at which a patient record 20 is accessible.

A healthcare professional, here illustrated at 22, is shown attending injured party 12 and is utilizing patient records 20 to determine the particular procedures to be utilized in the treatment of the injured party.

The information on this screen is provided, in the illustrated embodiment, over an RF link 26 to a cell tower 28 which is connected to the Internet 30 and thence to a server 32 which is turn connected to a global database 34. The global database is provided with the patient records here illustrated at 36 which can be composed of hospital/physician records 38, CT scans, NMRIs, X-rays 40, charts and graphs and optionally insurance data 42.

In operation, the healthcare professional, here illustrated at 22, ascertains the access code from the injured party and enters the access code through the local computer 18 which is then transmitted over the Internet to a server 32. Server 32 determines access, here illustrated at 44, and accesses database 34 with this access code to provide information from server 32 through Internet 30, cellsite 28 and RF link 26 to computer 18.

What is provided is an onsite patient record which is authorized by the utilization of the patient's access code carried by him or her. In this manner, the patient gives actual consent to the accessing of his or her patient records by virtue of carrying the access code on his or her person. In one embodiment, no access is permitted to the patient records without the injured party's actual consent. This actual consent is achieved through the provision of an access code to the individual and by virtue of the access code having been pre-coded into the global database.

If the patient is unconscious, then the permission to access his or her patient's record is automatic through access code entry by the healthcare provider or other professional.

It will be appreciated that in the illustrated embodiment there is no access to the patient's records absent his explicit consent as denoted by the carrying of the card or other device carrying his or her access code.

Optionally, as illustrated at entry device 50, those on the scene can enter data and transmit it back through the Internet and into the global database to modify the patient record in terms of care and other matters deemed pertinent by the healthcare provider at the scene. Also, computer 18 can be utilized to transmit prescriptions and other data needed elsewhere through the transmission path here established by RF link 26.

It will be appreciated that while the subject system is illustrated as being a wireless system, a hardwired system such as a computer in an emergency room is within the scope of this disclosure.

What is therefore provided is rapid access to authorized patient information which is useful both in the care of the injured party and in ascertaining the insurance qualifications of the individual, if such is necessary. The two-way communication link in which the patient record is an intrigal part is utilized, in one embodiment, to permit the forwarding of this information to further agencies such as a pharmacy or other experts so that prompt and accurate diagnosis can be made of the patient condition along with an appropriate treatment regimen.

Referring now to FIG. 2, one way of providing an access code is by virtue of a bracelet 52 which has an access code 54 imprinted thereon, in one embodiment as a barcode. Other types of access code indication such as magnetic stripes in internally carried magnetic elements or color-coding may be utilized in the generation of the access code.

Referring to FIG. 3, the same type of information can be encoded onto a card 56 in whatever manner as is convenient as in the case of the bracelet of FIG. 2.

Referring to FIG. 4, and as is described hereinbefore, a global server 60 may be coupled via the Internet or other means to regional servers 62, 64, 66, 68, 70 and 72. Such a global hosting system is described in U.S. Pat. No. 6,108,703 issued to F. Thomson Leighton et al. on Aug. 22, 2000. The purpose is to be able to transfer the centrally-generated information to local servers to reduce the time to transfer certain documents. This is particularly useful when the documents are not merely text but rather include images such as X-rays, CT scans, NMRIs or other pictorial data which must be used in the generation of a treatment regimen for the injured party. In the case illustrated, the servers may be as far as Washington state or Virginia and may be grouped as is convenient for the transmission of the patient information.

Referring now to FIG. 5, a data entry structure is shown as an initial web page 80 which includes from left to right an insurance agency ID 82, a particular password or access code 84, a patient ID such as the patient name 86, a password or access code 88, a healthcare provider 90 and an access code 92.

From the insurance agency's point of view the insurance agency may wish to access patient information, here illustrated at a new screen 94, in accordance with the patient ID 96 and may choose to add or edit insurance information as illustrated at 98 which is then passed to the global database.

Likewise, healthcare provider 90 with the appropriate password or access code can be provided with a new screen 100 and a patient ID 102 to add or edit medical information to the global database as illustrated at 104, with appended insurance information as illustrated at 106 garnered from the global database.

Finally, the patient may be able to view his or her medical and insurance information by entry of a patient ID and a password or access code so that the entire record may be viewable to the patient as illustrated at 110 which information comes from the global database. Thus, the patient can monitor his or her treatment.

Referring now to FIG. 6, one of the best ways to provide patient histories is by saving the medical information as a PDF file. In the global database the newest entry is stored in one instance in a data form which is stored as a new PDF file.

Having this type of information available, the information may be provided over the Internet by providing a specialized web page for each patient. As can be seen from FIG. 6, a viewer 120 may be using a viewer ID 121 to access a new screen 122 which upon receipt of the patient ID 124 provides a list of patient dates 126. These are then clicked at 128 to provide a PDF history 130 presented over the Internet.

New entries are provided by the new entry data form 132 which provides entries 134 such as blood pressure, diagnostic data and charts or graphs which result in a new PDF 136 being generated. This is submitted to be included on the database as illustrated at 138.

Additionally, e-mail prescriptions can be provided over the Internet from the entries at 134 as illustrated at 140.

While there are many methods to transmit data from a hospital or doctors office, in one embodiment the patient records, if saved on database, can be e-mailed and then converted to a PDF file at the global database.

On the other hand, the patient records at the hospital or doctor's office can be scanned and e-mailed to the global database where they are converted to PDF files. In this manner, regardless of the form in which patient records are kept, they can be provided in a PDF format by merely scanning them and transmitting the PDF file via e-mail. As a result, they can be preserved in the database as a PDF or other type of file.

While the PDF modality has been described herein, it will be appreciated that any universal method may be applied to the transmission of data from a hospital or a doctor's office to the global database. Moreover, patient records may be transmitted to the ultimate user through a modality other than PDF files. If utilizing a universal format, PDF files need not be used. Rather, the electronic form in which the patient's records are kept may be used directly. The advantage of using PDF or like files is to be able to transmit to the ultimate recipient, namely the medical care provider, not only whatever handwritten records exist but also the signatures on these records, and also any X-Rays, NMR renderings or indeed charts of any kind, that need not be in a particular format in order to be transmitted to the end recipient.

Having now described a few embodiments and some modifications and variations thereto, it should be apparent to those skilled in the art that the foregoing is merely illustrative and not limiting, having been presented by the way of example only. Numerous modifications and other embodiments are within the scope of one of ordinary skill in the art and are contemplated as falling within the scope as limited only by the appended claims and equivalents thereto. 

What is claimed is:
 1. A portable computing device comprising: a wireless interface communicatively coupled to a network; an access code entry device configured to receive entry of an access code and to generate input data indicative of the access code; an entry device configured to receive user input; a display device; a processor coupled to the wireless interface, to the access code entry device, and to the entry device; and a memory coupled to the processor, the memory storing instructions that are executable by the processor to: initiate receipt of the access code at the access code entry device; initiate transmission of data via the wireless interface to a server, the data indicating the access code; conditioned on the access code matching a particular access code that is set by a device controlled by a person and that enables access to health information of the person, receive, via the wireless interface, at least a portion of health data that corresponds to a first portion of the health information that is designated as shareable by a computing device of the person, wherein a second portion of the health information is designated as non-sharable by the computing device; initiate, at the display device, a display of information based on the received portion of the health data; generate additional health data based on the user input, the user input received after display of the information; and initiate transmission of the additional health data to the server.
 2. The portable computing device of claim 1, wherein the access code entry device comprises an access code reader configured to read the access code from a physical medium.
 3. The portable computing device of claim 2, wherein the access code comprises a bar code.
 4. The portable computing device of claim 3, wherein the access code reader is configured to scan the bar code from the physical medium.
 5. The portable computing device of claim 1, wherein the access code entry device comprises the entry device.
 6. The portable computing device of claim 5, wherein the entry device comprises a keypad.
 7. The portable computing device of claim 1, wherein the network includes an Internet protocol (IP) network.
 8. The portable computing device of claim 1, wherein the network includes the Internet.
 9. The portable computing device of claim 1, wherein the server comprises a global database of health data corresponding to multiple people including the person.
 10. An apparatus comprising: means for performing wireless communications; means for receiving entry of an access code and for generating input data indicative of the access code; means for receiving user input; means for processing coupled to the means for performing wireless communications, to the means for receiving entry of the access code, and to the means for receiving user input, the means for processing configured to: initiate wireless communication of data to a server, the data representing the access code; conditioned on the access code matching a particular access code that is set by a device controlled by a person and that enables access to health information of the person, receive, via wireless communication, at least a portion of health data that corresponds to a first portion of the health information that is designated as shareable by a computing device of the person, wherein a second portion of the health information is designated as non-sharable by the computing device; generate additional health data based on the user input; and initiate wireless communication of the additional health data to the server; and means for displaying information based on the received portion of the health data.
 11. The apparatus of claim 10, wherein the means for receiving the access code comprises means for scanning the access code from a physical medium.
 12. The apparatus of claim 11, wherein the access code comprises a bar code.
 13. The apparatus of claim 10, wherein the means for receiving the access code comprises the means for receiving user input.
 14. The apparatus of claim 10, wherein the additional health data updates at least a sub-portion of the first portion of the health data.
 15. The apparatus of claim 10, wherein the first portion of the health data further corresponds to insurance information of the person.
 16. A method comprising: receiving input at a computing device associated with a first person via an access code entry device of the computing device, the input indicating an access code; transmitting data from the computing device to a server via a network, the data representing the access code; conditioned on the access code matching a particular access code that is set by a device controlled by a second person and that enables access to health information of the second person, receiving at least a portion of health data that corresponds to a first portion of the health information that is designated as shareable by a device of the second person, wherein a second portion of the health information is designated as non-sharable by the device of the second person; initiating, at a display device of the computing device, a display of information, the information based on the received portion of the health data; receiving second input at the computing device via an entry device of the computing device; generating, at the computing device, additional health data based on the second input; and initiating transmission of the additional health data to the server via the network.
 17. The method of claim 16, wherein the computing device comprises a cell phone or a personal digital assistant.
 18. The method of claim 16, wherein the computing device comprises a computer.
 19. The method of claim 16, wherein the network comprises a wired network.
 20. The method of claim 16, wherein the server is at a remote location with respect to the computing device. 